Couplings -
Elastic Couplings

Description

Name

Applications

NEUPEX/ N-EUPEX DS

N-EUPEX coupling is available in standard version, for 23 different dimensions, with a coupling ranging from 19 Nm to 62000 Nm. This coupling is suitable for atmospheric temperatures from -30 ° C and +80 ° C. Using various elastomers for elastic materials, the allowed temperature range can be extended from -50 ° C and +100 ° C.

Very frequently the coupling is used to connect the engine to gear assembly’s input shaft. The coupling is mainly suitable for machineries with a liniary torsion moment and average dynamic loads. Some examples of such applications are pumping units, ventilating units and camel gear assembly. Moreover, N-EUPEX couplings can be used in combination with other couplings, mainly with FLUDEX or ARPEX AKR as safety couplings. If the conductor is a Diesel motor, N-EUPEX coupling is suitable for conducted vehicles, with a low torsion moment and low inertia mass.

Technical details, dimensions, versions and combinations of these couplings can be found in catalogue.

RUPEX

RUPEX couplings are available in standard version, for 26 different dimensions, with a nominal coupling ranging from 200 Nm to 1300000 Nm. This coupling is suitable for atmospheric temperatures from -30 ° C and +80° C. Using various elastomers for elastic materials, the allowed temperature range can be extended from -50 ° C and +100 ° C.

This coupling is often used to connect conducted and conducer shafts of machineries. In the case the gear assembly is missing, this coupling is fit for operating in harsh or sever conditions for machineries with an electromotor (large mass ventilator, cement industry machineries, camels, elevators, etc.)

Technical details, dimensions and of these couplings can be found in catalogue.

BIPEX

Elastic coupling BIPEX is available in standard version of 13 dimensions, and transmitted coupling from 13.5 Nm to 3700 Nm. This coupling is suitable for atmospheric temperatures from -30 ° C and +80° C.

Elastic couplings BIPEX are extremely suitable to action electromotors with an uniform coupling loads and properly aligned. They are outstanding for their extremely compact designed.

Technical details, dimensions and of these couplings can be found in catalogue.

ELPEX-B

Elastic coupling ELPEX-B is available in standard version of 15 dimensions, and a torsion coupling from 24 Nm to 14500 Nm. This coupling equipped with elastic tire made of natural rubber is able to work on temperatures from -50°C to +50°C and with elastic tire made of chloroprene rubber, able to work on temperatures from -15°C to +70°C. Chloroprene rubber tires are marked FRAS (Fire Resistent and Anti-static).

ELPEX-S

Elastic coupling ELPEX-B is available in standard version of 12 dimensions, and a torsion coupling from 330 Nm to 63000 Nm. This coupling can function on temperatures from -40°C and +120°C.

ELP0EX-S coupling is frequently used to connect a Diesel motor with piston compressor units. Because there are different quality material types for the flexible disk, this coupling is able to meet requirements for vibrating applications and variable torsion moments.

ELPEX

ELPEX elastic coupling is available in standard version, for 9 different dimensions, with a nominal coupling ranging from 1600 Nm to 900000 Nm. This coupling is suitable for atmospheric temperatures from -40 ° C and +80° C. ELPEX coupling is used frequently for machineries with a long life-span, functioning under harsh conditions. Some of these applications are: cement mills, main and secondary maritime unites, large excavator units actioned by an electromotor or a Diesel motor.

FLUDEX

FLUDEX flexible couplings are used for transporting systems like: band conveyer, chain pump and chain conveyer. In heavy industry FLUDEX couplings are used for applications, such as: blade wheel, breakers, mixers, large ventilators, boiler feeding pumps, large compressors, centrifuge and auxiliary units for mills.

For applications with Diesel motors, FLUDEX couplings are used for conducting machines with a high inertia.